CN114568888B

CN114568888B - Anti-icing automatic humidity control refrigerator

Info

Publication number: CN114568888B
Application number: CN202210382117.5A
Authority: CN
Inventors: 安再超
Original assignee: Jiangsu Simand Electric Co Ltd
Current assignee: Jiangsu Simand Electric Co Ltd
Priority date: 2022-04-13
Filing date: 2022-04-13
Publication date: 2023-09-12
Anticipated expiration: 2042-04-13
Also published as: CN114568888A

Abstract

The invention discloses an anti-icing automatic humidity control ice chest, and belongs to the technical field of ice chest. The refrigerator comprises a refrigerator body, wherein a plurality of partition boards are arranged between two side walls of the refrigerator body, a cold storage cabin is formed between the refrigerator body and the partition boards, second sliding grooves are formed in the side walls of the refrigerator body and the partition boards, electric push rods are arranged in each second sliding groove, sliding blocks are connected to telescopic ends of the electric push rods, the sliding blocks slide in the second sliding grooves, a glass door is connected between every two adjacent sliding blocks, a humidity control assembly and an automatic door closing assembly are arranged in each cold storage cabin, the humidity control assembly has the effects of dehumidifying and humidifying an refrigerator, the automatic door closing assembly avoids the situation that the refrigerating effect of the refrigerator is poor due to the fact that a consumer forgets to close the glass door, the refrigerating effect of the cold storage cabin is poor, the deterioration and the spoilage of cold chain foods are prevented, and the refrigerating effect of the refrigerator is guaranteed to a great extent.

Description

Anti-icing automatic humidity control refrigerator

Technical Field

The invention relates to the technical field of ice boxes, in particular to an anti-icing automatic humidity control ice box.

Background

The refrigerator is also called a freezer, and is a device for preserving food and other articles at low temperature. There are two types of distinction between home and business, commercial ice chest applications and restaurants, water bars, food processing, and business superelevation.

At present, a plurality of cold chain selling foods exist in a supermarket in a market, most of the foods exist in an ice chest for consumers to push and pull the glass door of the ice chest to take the foods by themselves, because the flow of consumers is large, the frequent opening and closing of the glass door of the ice chest leads to the meeting of outside temperature air and inside cold air of the ice chest, water is generated, the rise of air humidity in the ice chest is caused, the greater the air humidity is, the easier the inner wall of the ice chest is frozen, the space inside the ice chest is occupied, the using space of the ice chest is influenced, and occasionally, the consumers forget to close the glass door after taking the foods, the cold storage cabin is contacted with the outside air for a long time, the temperature is increased, the refrigerating effect on the cold chain foods cannot be achieved, the cold chain foods are deteriorated and spoiled, and unnecessary material loss is caused.

Disclosure of Invention

The invention aims to provide an anti-icing automatic humidity control refrigerator so as to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme:

the utility model provides an anti-icing's automatic accuse wet refrigerator-freezer, this anti-icing's automatic empty wet refrigerator-freezer of includes the cabinet body, be provided with a plurality of baffles between the both sides wall of the cabinet body, form between the cabinet body and the baffle and store up cold cabin, all be equipped with the second spout on the lateral wall of the cabinet body and the baffle, every all be provided with electric putter in the second spout, every electric putter's flexible end all is connected with the slider, a plurality of the slider all slides in a plurality of second spouts, all is connected with glass door between every two adjacent sliders, every it all is provided with accuse wet subassembly and automatic door closing assembly to store up the door, accuse wet subassembly plays dehumidification, humidification's effect to the refrigerator-freezer, and automatic subassembly avoids closing the glass door because of forgetting, leads to the not good circumstances of refrigerator-freezer refrigeration effect to appear.

Every group the automatic subassembly of closing door all includes the bullet piece, the inner wall of the cabinet body is provided with miniature camera, first spout has been seted up to the inner wall of the cabinet body, the bullet piece slides in first spout, the one end of bullet piece is connected with the insulating block, and the insulating block plays the effect of cutting off the circuit, the one end of insulating block is connected with first circular telegram piece, and circular telegram piece adopts the copper material that circular telegram performance is good, bullet piece surface cover is equipped with the spring.

The spring is located between the spacing end of bullet piece and the lateral wall of first spout, be connected with the power cord on the miniature camera, miniature camera adopts and has the automatic defogging function of camera lens, the power cord circular telegram end is cut off by first spout, insulating piece and first circular telegram piece and the circular telegram end sliding connection of power cord, this device is when using for the first time, carry out the record of making a video recording of second to the pattern of stripe through the miniature camera, the image data of miniature camera with the stripe of taking a picture gives image processor, image processor will be the image data record of current receipt as original image data, so that follow-up use as the comparison object, the humidity value of refrigerator-freezer is predetermined in advance, corresponding numerical value department on the lever is adjusted through the bolt, the dehumidification of follow-up refrigerator-freezer, humidification regulation work of being convenient for.

The utility model discloses a novel glass door, including glass door, storage Leng Cang, miniature camera, image processor, controller, electric putter and model YMD-01's direct current electric putter, compact structure is small and exquisite, dustproof waterproof, there is not self-locking structure, outage is scalable freely, be provided with the handle on the glass door, the one end of glass door is provided with the stripe, the glass door is the upper and lower staggered distribution, one of them lower extreme sliding connection of glass door has the roller bearing, the roller bearing is connected with the baffle, miniature camera shoots the record to the stripe, electric connection has image processor on the miniature camera, image processor electric connection has the controller, controller and electric putter electric connection, electric putter adopts the direct current electric putter of model YMD-01.

Each group of humidity control components comprises a dehumidifying box and a humidifier, the dehumidifying box is arranged on a cabinet body, a mounting plate is connected between inner walls of two sides of the dehumidifying box, a first sealing door and a second sealing door are arranged on the dehumidifying box, the first sealing door and the second sealing door are convenient for replacing water absorption particles and adjusting a moisture absorption block, a one-way valve is arranged on the second sealing door, a first air cabin and a second air cabin are arranged in the dehumidifying box, when humidity in the refrigerator body is high, the moisture absorption block absorbs moisture in the air, the moisture absorption block is weighted after the moisture absorption block is heavier than a balancing weight, a lever drives the second power-on block to turn clockwise, the second power-on block is connected with a third power-on block, an exhaust fan and a circuit of the motor are connected, the motor is driven to move upwards, the second air hole communicated with the second air cabin is staggered with the third air hole, the moisture absorption block does not directly enter the second air cabin, the second air hole communicated with the first air cabin is communicated with the third air hole, when humidity absorption block is higher than the first air cabin, the moisture absorption block is heavier than the balancing weight, the second air is driven by the balancing weight, the second air is discharged into the second air cabin through the first fan, the air cabin through the air absorption block, the air absorption block returns to the dry state, and the air absorption block is not in the dry air cabin, and the dry air is in the dry state, and the dry air cabin is discharged in the dry state through the air cabin, and the air absorption block is in the dry state, and the dry air cabin is in the dry air cabin and has the dry air condition and has the dry air. And the next dehumidification treatment is convenient.

The first air cabin is located the mounting panel upper end, the second air cabin is located the mounting panel lower extreme, install the air discharge fan on the mounting panel, a plurality of first air vents have been seted up on the mounting panel, be provided with a plurality of water absorption granule in the first air cabin, water absorption granule adopts super absorbent resin, the granule diameter of water absorption granule is greater than first air vent aperture.

The utility model discloses a cabinet, including cabinet body, motor, rack and gear engagement, the mounting groove has been seted up to the internal lateral wall of cabinet, install the motor in the mounting groove, the output of motor is connected with the gear, sliding connection has the slide in the mounting groove, the one end of slide is provided with the rack, rack and gear engagement are connected.

A plurality of second vent holes and fourth vent holes are formed in the sliding plate, a plurality of third vent holes are formed in the inner wall of the side of the cabinet body, the third vent holes are communicated with the cold storage cabin, the second vent holes are communicated with the first air cabin, the fourth vent holes are communicated with the second air cabin, when the air humidity of the refrigerator is lower, the moisture absorbed by the moisture absorbing block is less, the moisture absorbing block is lighter than the balancing weight, the anticlockwise turning angle of the lever is large, the second power-on block is connected with the fourth power-on block, the humidifier is connected with the fourth power-on block to perform humidification treatment in the cold storage cabin, wet air in the cold storage cabin enters the second air cabin until the moisture absorbing block is absorbed by the moisture, the second power-on block is turned over clockwise, the second power-on block is disconnected with the fourth power-on block, and the humidifier stops humidifying work, so that the inside of the refrigerator keeps good refrigerating effect.

The base is installed to the bottom in the dehumidification case, install branch on the base, rotate on the branch and be connected with the lever, the one end of lever is provided with the balancing weight, the other end of lever is provided with the slide, the slide slides on the lever, it is fixed through the bolt adjustment between slide and the lever, the slide upper end is provided with the moisture absorption piece, a plurality of be provided with the grid between third vent and the cold storage cabin, the grid prevents that placing of cold chain food from blockking up the third vent.

The lever center is connected with a second electrifying block, the supporting rod is connected with an arc-shaped functional block, the second electrifying block is connected with a power supply, one end of the arc-shaped functional block is provided with a third electrifying block, the other end of the arc-shaped functional block is provided with a fourth electrifying block, the third electrifying block is electrically connected with a controller, an exhaust fan and a motor, the fourth electrifying block is electrically connected with a humidifier of the controller, an atomizing nozzle of the humidifier is positioned in a cold storage cabin, the lower end of the cabinet body is provided with a plurality of universal wheels, when a glass door is pushed open by a consumer, one end of the glass door is far away from a miniature camera, the elastic block ejects out of a first chute under the action of a spring, the displacement change of the elastic block enables the first electrifying block to be communicated with a power line, the miniature camera is connected with the power supply to perform shooting work for 30 seconds during seconds, the image data of the stripes recorded by the micro-camera is compared with the original image data in real time, because the consumer takes the cold chain food by hand, the hand and the cold chain food can pass through the shooting area between the micro-camera and the stripes, the large deviation between the image data of the stripes recorded by the micro-camera and the original image data can be caused, when the large deviation exists in the comparison of the image data measured once, the micro-camera can carry out shooting work for 30 seconds again, when the consumer does not take the materials any more, the image processor transmits the data to the controller until the image data of the stripes recorded by the micro-camera has no large deviation compared with the original data, the controller controls the electric push rod to be connected with the power supply, the electric push rod pushes the sliding block, the glass door achieves the automatic closing effect, after the glass door is closed, the elastic block is pressed by the glass door, the spring is compressed, and slide in to first spout, insulating piece intercommunication power cord makes miniature camera machine and electric putter break off the power, waits that the next glass door is put through the power once more after being pushed open, prevents to appear because of the consumer forgets to close the glass door, leads to storing up the condition that cold cabin refrigeration effect is not good, and cold chain food goes bad and spoils, very big degree guarantee the refrigeration effect of refrigerator-freezer.

Compared with the prior art, the invention has the following beneficial effects:

1. when the glass door is pushed away by consumers, one end of the glass door is far away from the miniature camera, the elastic block ejects out of the first sliding groove under the action of the spring, the displacement change of the elastic block enables the first electrifying block to be communicated with the power line, stripe image data recorded by the miniature camera is compared with original image data in real time, until the image data of 0-30 seconds of stripes recorded by the miniature camera has no large deviation compared with the original data, the image processor transfers data transcoding to the controller, the controller controls the electric push rod to be connected with the power supply, the electric push rod pushes the sliding block, the glass door achieves the automatic closing effect, the refrigerating effect of the refrigerator is guaranteed, and deterioration and spoilage of cold chain foods are prevented.

2. After the glass door is closed, the spring block is compressed by the extrusion of the glass door and slides into the first chute, and the insulating block is communicated with the power line, so that the power of the miniature camera and the electric push rod is disconnected, the power is switched on again after the next time the glass door is pushed open, the power is automatically cut off, and unnecessary energy consumption output is avoided.

3. When the moisture in the air of the refrigerator is higher, the moisture absorption block can absorb the moisture in the air, the moisture absorption block is heavier after absorbing the moisture, the moisture absorption block is heavier than the balancing weight, the lever drives the second electrifying block to turn clockwise, so that the circuit of the exhaust fan and the motor is connected, the moisture absorption block is dried, after the moisture absorption block is dried, the lever turns anticlockwise, the circuit of the exhaust fan and the motor is disconnected, the motor is powered off, the gear is in a free state, the sliding plate slides downwards under the action of gravity to restore to the original position, so that the wet air in the cold storage cabin does not enter the first air cabin, the wet air in the cold storage cabin enters the second air cabin, and the moisture absorption work of the moisture absorption block is carried out again, so that the next dehumidification treatment is facilitated.

4. When the air humidity of the refrigerator is lower, the moisture absorption block absorbs less moisture, the moisture absorption block is lighter than the balancing weight, the anticlockwise turning angle of the lever is large, the second electrifying block is connected with the fourth electrifying block, the humidifier is connected with the fourth electrifying block to humidify the cold storage cabin until the moisture absorption block absorbs moisture and turns clockwise, the second electrifying block is disconnected with the fourth electrifying block, the humidifier stops humidifying work, and good refrigerating effect is kept in the refrigerator.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a first perspective view of an ice protection automatic humidity control ice bin of the present invention;

FIG. 2 is a second perspective view of an ice protection automatic humidity control ice bin of the present invention;

FIG. 3 is a schematic view of an ice protection automatic humidity control ice bin auto door closing assembly according to the present invention;

FIG. 4 is an enlarged schematic view of an ice protection automatic humidity control ice bin of FIG. 3 at A of the present invention;

FIG. 5 is a schematic diagram of the position distribution of a second chute and an electric push rod of an ice protection automatic humidity control ice bin according to the present invention;

FIG. 6 is a schematic side cross-sectional structural view of an ice protection automatic humidity control ice bin of the present invention;

FIG. 7 is an enlarged schematic view of an ice protection automatic humidity control ice bin of FIG. 6 at B of the present invention;

FIG. 8 is a schematic view of a humidity control assembly of an ice protection automatic humidity control ice bin of the present invention;

in the figure: 1. a cabinet body; 101. a first chute; 2. a cold storage cabin; 3. a miniature camera; 4. a spring block; 401. an insulating block; 402. a first power-on block; 403. a spring; 5. a second chute; 6. a glass door; 601. stripes; 602. a slide block; 7. a handle; 701. a roller; 8. a dehumidifying box; 9. a humidifier; 10. a first sealing door; 11. a second sealing door; 1101. a one-way valve; 12. a universal wheel; 13. a partition plate; 14. an electric push rod; 15. a power line; 16. a mounting plate; 161. a first vent hole; 162. a first air chamber; 163. water-absorbing particles; 164. a second air chamber; 17. an exhaust fan; 18. a base; 19. a support rod; 20. a lever; 21. a slide; 22. a moisture absorption block; 23. a slide plate; 231. a second vent hole; 232. a rack; 233. fourth air holes; 24. a mounting groove; 241. a gear; 25. a third vent hole; 26. balancing weight; 27. a second energizing block; 28. an arc-shaped functional block; 29. a third power-on block; 30. fourth electric block.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-8, the present invention provides the following technical solutions:

the utility model provides an anti-icing's automatic accuse wet refrigerator-freezer, this anti-icing's automatic empty wet refrigerator-freezer of including the cabinet body 1, be provided with a plurality of baffles 13 between the both sides wall of the cabinet body 1, form between the cabinet body 1 and the baffle 13 and store up cold cabin 2, all be equipped with second spout 5 on the lateral wall of the cabinet body 1 and the baffle 13, all be provided with electric putter 14 in every second spout 5, every electric putter 14's flexible end all is connected with slider 602, a plurality of sliders 602 all slide in a plurality of second spouts 5, all be connected with glass door 6 between every adjacent two sliders 602, all be provided with accuse wet subassembly and automatic door closing subassembly in every stores up cold cabin 2, accuse wet subassembly plays dehumidification, humidification's effect to the refrigerator-freezer, automatic door closing subassembly avoids because of forgetting to close glass door 6, lead to the not good circumstances to the refrigerator-freezer refrigeration effect to appear.

Each group of automatic door closing components comprises an elastic block 4, a miniature camera 3 is arranged on the inner wall of the cabinet body 1, a first sliding groove 101 is formed in the inner wall of the cabinet body 1, the elastic block 4 slides in the first sliding groove 101, one end of the elastic block 4 is connected with an insulating block 401, the insulating block 401 plays a role of isolating a circuit, one end of the insulating block 401 is connected with a first electrifying block 402, the electrifying block is made of copper materials with good electrifying performance, and a spring 403 is sleeved on the outer surface of the elastic block 4.

The spring 403 is located between the spacing end of bullet piece 4 and the lateral wall of first spout 101, be connected with power cord 15 on the miniature camera 3, miniature camera 3 adopts and has the automatic defogging function of camera lens, the power cord 15 power on end is cut off by first spout 101, insulating piece 401 and first power on piece 402 and the power cord 15's power on end sliding connection, this device is when using for the first time, carry out the record of making a video recording for 30 seconds to the pattern of stripe 601 through miniature camera 3, miniature camera 3 is with the image data transmission who beats stripe 601 to image processor, image processor is with the image data record of current receipt as original image data, in order to regard as the comparison object to follow-up use, the humidity value of freezer is predetermined in advance, corresponding numerical value department on lever 20 of hygroscopic piece 22 is adjusted through the bolt, the dehumidification of follow-up freezer, humidification regulation work is convenient for.

The handle 7 is arranged on the glass door 6, the stripe 601 is arranged at one end of the glass door 6, the glass door 6 in the cold storage cabin 2 is distributed in a vertically staggered mode, the lower end of one glass door 6 is slidably connected with the roller 701, the roller 701 is connected with the partition 13, the miniature camera 3 shoots and records the stripe 601, the miniature camera 3 is electrically connected with the image processor, the image processor is electrically connected with the controller, the controller is electrically connected with the electric push rod 14, the electric push rod 14 is a direct current electric push rod of a model YMD-601, the structure is compact and small, dust and water proofing are realized, a self-locking structure is not needed, and the power failure can be freely stretched.

Each group of humidity control components comprises a dehumidifying box 8 and a humidifier 9, the dehumidifying box 8 is arranged on the cabinet body 1, a mounting plate 16 is connected between the inner walls of the two sides of the dehumidifying box 8, a first sealing door 10 and a second sealing door 11 are arranged on the dehumidifying box 8, the first sealing door 10 and the second sealing door 11 facilitate the replacement of water absorption particles 163 and the adjustment of a moisture absorption block 22, a one-way valve 1101 is arranged on the second sealing door 11, a first air cabin 162 and a second air cabin 164 are arranged in the dehumidifying box 8, when the humidity in the air of a refrigerator is higher, the moisture absorption block 22 absorbs the moisture in the air, the moisture absorption block 22 is weighted, the moisture absorption block 22 is heavier than a balancing weight 26, a lever 20 drives a second power-on block 27 to clockwise turn over, the second power-on block 27 is connected with a third power-on block 29, the circuits of the air exhaust fan 17 and a motor are connected, the motor is operated to drive a sliding plate 23 to move upwards, the fourth air vent 233 communicated with the second air chamber 164 is staggered with the third air vent 25, the wet air in the cold storage chamber 2 does not directly enter the second air chamber 164, the second air vent 231 communicated with the first air chamber 162 is communicated with the third air vent 25, the wet air in the cold storage chamber 2 enters the first air chamber 162, the wet air in the first air chamber 162 is conveyed into the second air chamber 164 through the exhaust fan 17, the wet air in the first air chamber 162 is dried after being subjected to the water absorption treatment of the water absorbing particles 163, the dried air is blown to the moisture absorption block 22 through the exhaust fan 17, the air in the second air chamber 164 is discharged to the outside through the one-way valve 1101, the moisture absorption block 22 is dried, after the moisture absorption block 22 is dried, the lever 20 is turned anticlockwise, the circuit of the exhaust fan 17 and a motor is disconnected, the motor without a self-locking function is powered off, the gear 241 is in a free state, the sliding plate 23 slides downwards under the action of gravity to restore the original position, the wet air in the cold storage cabin 2 does not enter the first air cabin 162, the wet air in the cold storage cabin 2 enters the second air cabin 164, and the moisture absorption work of the moisture absorption block 22 is performed again, so that the next dehumidification treatment is facilitated.

The first air cabin 162 is located the mounting panel 16 upper end, and the second air cabin 164 is located the mounting panel 16 lower extreme, installs the air discharge fan 17 on the mounting panel 16, has seted up a plurality of first air vents 161 on the mounting panel 16, is provided with a plurality of water absorption granule 163 in the first air cabin 162, and water absorption granule 163 adopts the super absorbent resin, and the granule diameter of water absorption granule 163 is greater than first air vent 161 aperture.

The mounting groove 24 has been seted up to cabinet body 1 inside wall, installs the motor in the mounting groove 24, and the output of motor is connected with gear 241, and sliding connection has slide 23 in the mounting groove 24, and slide 23's one end is provided with rack 232, and rack 232 and gear 241 meshing are connected.

The sliding plate 23 is internally provided with a plurality of second ventilation holes 231 and fourth ventilation holes 233, the side inner wall of the cabinet body 1 is provided with a plurality of third ventilation holes 25, the plurality of third ventilation holes 25 are communicated with the cold storage cabin 2, the second ventilation holes 231 are communicated with the first air cabin 162, the fourth ventilation holes 233 are communicated with the second air cabin 164, when the air humidity of the refrigerator is lower, the moisture absorption block 22 absorbs less moisture, the moisture absorption block 22 is lighter than the balancing weight 26, the lever 20 is enabled to turn over at a large anticlockwise angle, the second power-on block 27 is connected with the fourth power-on block 30, the humidifier 9 is connected with the fourth power-on block 30 to perform humidification treatment in the cold storage cabin 2, and the wet air in the cold storage cabin 2 enters the second air cabin 164 until the moisture absorption block 22 turns clockwise after moisture absorption, so that the second power-on block 27 is disconnected with the fourth power-on block 30, and the humidifier 9 stops humidification work, so that the inside of the refrigerator keeps good refrigeration effect.

The base 18 is installed in the dehumidification box 8, a supporting rod 19 is installed on the base 18, a lever 20 is connected to the supporting rod 19 in a rotating mode, a balancing weight 26 is arranged at one end of the lever 20, a sliding seat 21 is arranged at the other end of the lever 20, the sliding seat 21 slides on the lever 20, the sliding seat 21 and the lever 20 are fixed through bolt adjustment, a moisture absorption block 22 is arranged at the upper end of the sliding seat 21, a grid is arranged between a plurality of third air holes 25 and the cold storage cabin 2, and the grid prevents the third air holes 25 from being blocked by placement of cold chain foods.

The center of the lever 20 is connected with a second electrifying block 27, the supporting rod 19 is connected with an arc-shaped functional block 28, the second electrifying block 27 is connected with a power supply, one end of the arc-shaped functional block 28 is provided with a third electrifying block 29, the other end of the arc-shaped functional block 28 is provided with a fourth electrifying block 30, the third electrifying block 29 is electrically connected with a controller, an exhaust fan 17 and a motor, the fourth electrifying block 30 is electrically connected with a humidifier 9 of the controller, an atomizing nozzle of the humidifier 9 is positioned in a cold storage cabin 2, the lower end of the cabinet 1 is provided with a plurality of universal wheels 12, when the glass door 6 is pushed open by a consumer, one end of the glass door 6 is far away from the miniature camera 3, the elastic block 4 pops out of the first chute 101 under the action of a spring 403, the displacement change of the elastic block 4 enables the first electrifying block 402 to be communicated with a power line 15, the miniature camera 3 is connected with the power supply to perform shooting work for 30 seconds on the stripe 601, during 30 seconds, the image data of the stripe 601 recorded by the micro-camera 3 is compared with the original image data in real time, because the consumer takes the cold chain food by hand, the hand and the cold chain food can pass through the shooting area between the micro-camera 3 and the stripe 601, so that the image data of the stripe 601 recorded by the micro-camera 3 has larger deviation from the original image data, when the comparison of the image data is detected once, the micro-camera 3 can carry out shooting work for 30 seconds again, when the consumer does not take the material any more, until the image data of 0-30 seconds of the stripe 601 recorded by the micro-camera 3 has no larger deviation from the original data, the image processor transmits the data transcoding to the controller, the controller controls the electric push rod 14 to be connected with the power supply, the electric push rod 14 pushes the slide block 602, so that the glass door 6 achieves the automatic closing effect, after the glass door 6 is closed, the spring block 4 is compressed by the compression spring 403 after being extruded by the glass door 6 and slides into the first chute 101, the insulating block 401 is communicated with the power line 15, so that the miniature camera 3 and the electric push rod 14 are powered off, the power is turned on again after waiting for the next time the glass door 6 is pushed open, the situation that the refrigerating effect of the cold storage cabin 2 is poor and the cold chain food is spoiled due to the fact that a consumer forgets to close the glass door 6 is prevented, and the refrigerating effect of the refrigerator is greatly guaranteed.

The working principle of the invention is as follows: when the device is used for the first time, the patterns of the stripes 601 are recorded for 30 seconds through the micro-camera 3, the micro-camera 3 transmits the image data of the shot stripes 601 to the image processor, the image processor records the currently received image data as original image data so as to be convenient for the subsequent use as a comparison object, the humidity value of the refrigerator is preset in advance, and the corresponding numerical value of the moisture absorption block 22 on the lever 20 is regulated through the bolt so as to be convenient for the dehumidification and humidification regulation work of the subsequent refrigerator.

When moisture in the air of the refrigerator is higher, the moisture absorption block 22 absorbs moisture in the air, the moisture absorption block 22 is weighted after absorbing the moisture, the moisture absorption block 22 is heavier than the balancing weight 26, the lever 20 drives the second electrifying block 27 to clockwise turn, the second electrifying block 27 is communicated with the third electrifying block 29, the circuit of the exhaust fan 17 and the motor is communicated, the motor operates to drive the sliding plate 23 to move upwards, the fourth air hole 233 communicated with the second air cabin 164 is staggered with the third air hole 25, the wet air in the cold storage cabin 2 does not directly enter the second air cabin 164, the second air hole 231 communicated with the first air cabin 162 is communicated with the third air hole 25, the wet air in the cold storage cabin 2 enters the first air cabin 162, the wet air in the first air cabin 162 is conveyed into the second air cabin 164 through the exhaust fan 17, the wet air in the first air cabin 162 is dried after being subjected to water absorption treatment of the water absorption particles 163, the dried air is blown to the moisture absorption block 22 through the exhaust fan 17, the air in the second air cabin 164 is discharged to the outside through the one-way valve 1101, the moisture absorption block 22 is dried, when the moisture absorption block 22 is dried, the lever 20 is turned anticlockwise, the circuit of the exhaust fan 17 and the motor is disconnected, the motor is powered off, the gear 241 is in a free state, the sliding plate 23 slides downwards under the action of gravity to restore to the original position, the wet air in the cold storage cabin 2 does not enter the first air cabin 162, the wet air in the cold storage cabin 2 enters the second air cabin 164, and the moisture absorption work of the moisture absorption block 22 is carried out again, so that the next dehumidification treatment is facilitated.

When the air humidity of the refrigerator is lower, the moisture absorption block 22 absorbs less moisture, the moisture absorption block 22 is lighter than the balancing weight 26, so that the anticlockwise turning angle of the lever 20 is large, the second electrifying block 27 is connected with the fourth electrifying block 30, the humidifier 9 is connected with the fourth electrifying block 30 to humidify the cold storage cabin 2, and the humid air in the cold storage cabin 2 enters the second air cabin 164 until the moisture absorption block 22 turns clockwise after absorbing moisture, the second electrifying block 27 is disconnected with the fourth electrifying block 30, and the humidifier 9 stops humidifying work, so that the inside of the refrigerator keeps a good refrigerating effect.

When the glass door 6 is pushed away by a consumer, one end of the glass door 6 is far away from the micro-camera 3, the spring 4 is ejected out of the first chute 101 under the action of the spring 403, the displacement change of the spring 4 enables the first power-on block 402 to be communicated with the power line 15, so that the micro-camera 3 is powered on to perform shooting work for 30 seconds on the stripe 601, during 30 seconds, image data of the stripe 601 recorded by the micro-camera 3 is compared with original image data in real time, because the consumer takes cold chain food with hands, the hands and the cold chain food can pass through a shooting area between the micro-camera 3 and the stripe 601, a larger deviation exists between the image data of the stripe 601 recorded by the micro-camera 3 and the original image data, when the larger deviation exists in comparison of the image data, the micro-camera 3 can perform shooting work again for 30 seconds, when the consumer does not take the materials any more until the image data of 0-30 seconds recorded by the micro-camera 3 in the stripes 601 has no larger deviation compared with the original data, the image processor transmits the data transcoding to the controller, the controller controls the electric push rod 14 to be connected with the power supply, the electric push rod 14 pushes the slide block 602, the glass door 6 achieves the automatic closing effect, after the glass door 6 is closed, the elastic block 4 is pressed by the glass door 6, the spring 403 is compressed and slides into the first sliding groove 101, the insulating block 401 is communicated with the power line 15, the micro-camera 3 and the electric push rod 14 are disconnected, the power supply is connected again after the next time the glass door 6 is pushed open, the situation that the refrigerating effect of the cold storage cabin 2 is poor and the cold chain food is deteriorated and spoiled due to forgetting to closing the glass door 6 by the consumer is prevented, and the refrigerating effect of the refrigerator is greatly ensured.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An anti-icing's automatic accuse wet refrigerator-freezer, its characterized in that: the automatic ice-proof air-wet freezer comprises a freezer body (1), a plurality of partition boards (13) are arranged between two side walls of the freezer body (1), a cold storage cabin (2) is formed between the freezer body (1) and the partition boards (13), second sliding grooves (5) are formed in the side walls of the freezer body (1) and the partition boards (13), electric push rods (14) are arranged in each second sliding groove (5), sliding blocks (602) are connected to telescopic ends of each electric push rod (14), a plurality of sliding blocks (602) slide in the second sliding grooves (5), a glass door (6) is connected between every two adjacent sliding blocks (602), and a humidity control assembly and an automatic door closing assembly are arranged in each storage Leng Cang (2);

each group of automatic door closing assemblies comprises a spring block (4), a miniature camera (3) is arranged on the inner wall of the cabinet body (1), a first sliding groove (101) is formed in the inner wall of the cabinet body (1), the spring blocks (4) slide in the first sliding groove (101), one end of each spring block (4) is connected with an insulating block (401), one end of each insulating block (401) is connected with a first electrifying block (402), and a spring (403) is sleeved on the outer surface of each spring block (4);

the novel glass door is characterized in that a handle (7) is arranged on the glass door (6), stripes (601) are arranged at one end of the glass door (6), the glass doors (6) in the storage Leng Cang (2) are distributed in a vertically staggered mode, one lower end of the glass door (6) is connected with a rolling shaft (701) in a sliding mode, the rolling shaft (701) is connected with a partition plate (13), the miniature camera (3) shoots and records the stripes (601), an image processor is electrically connected to the miniature camera (3), and a controller is electrically connected to the image processor and is electrically connected with an electric push rod (14);

each group of humidity control components comprises a dehumidifying box (8) and a humidifier (9), the dehumidifying boxes (8) are arranged on the cabinet body (1), mounting plates (16) are connected between inner walls of two sides of the dehumidifying boxes (8), a first sealing door (10) and a second sealing door (11) are arranged on the dehumidifying boxes (8), one-way valves (1101) are arranged on the second sealing doors (11), and a first air cabin (162) and a second air cabin (164) are arranged in the dehumidifying boxes (8);

the first air cabin (162) is positioned at the upper end of the mounting plate (16), the second air cabin (164) is positioned at the lower end of the mounting plate (16), an exhaust fan (17) is mounted on the mounting plate (16), a plurality of first vent holes (161) are formed in the mounting plate (16), a plurality of water absorption particles (163) are arranged in the first air cabin (162), and the particle diameter of the water absorption particles (163) is larger than the aperture of the first vent holes (161);

the novel intelligent cabinet is characterized in that an installation groove (24) is formed in the inner side wall of the cabinet body (1), a motor is installed in the installation groove (24), the output end of the motor is connected with a gear (241), a sliding plate (23) is connected in a sliding mode in the installation groove (24), a rack (232) is arranged at one end of the sliding plate (23), and the rack (232) is meshed with the gear (241);

a plurality of second vent holes (231) and fourth vent holes (233) are formed in the sliding plate (23), a plurality of third vent holes (25) are formed in the side inner wall of the cabinet body (1), the third vent holes (25) are communicated with the cold storage cabin (2), the second vent holes (231) are communicated with the first air cabin (162), and the fourth vent holes (233) are communicated with the second air cabin (164);

the novel dehumidifying box is characterized in that a base (18) is arranged at the inner bottom of the dehumidifying box (8), a supporting rod (19) is arranged on the base (18), a lever (20) is connected to the supporting rod (19) in a rotating mode, a balancing weight (26) is arranged at one end of the lever (20), a sliding seat (21) is arranged at the other end of the lever (20), the sliding seat (21) slides on the lever (20), the sliding seat (21) is fixedly adjusted through bolts with the lever (20), a hygroscopic block (22) is arranged at the upper end of the sliding seat (21), and a grid is arranged between a plurality of third air holes (25) and a cold storage cabin (2);

the novel intelligent refrigerator is characterized in that a second electrifying block (27) is connected to the center of the lever (20), an arc-shaped functional block (28) is connected to the supporting rod (19), the second electrifying block (27) is powered on, a third electrifying block (29) is arranged at one end of the arc-shaped functional block (28), a fourth electrifying block (30) is arranged at the other end of the arc-shaped functional block (28), the third electrifying block (29) is electrically connected with the controller, the exhaust fan (17) and the motor, the fourth electrifying block (30) is electrically connected with the controller humidifier (9), an atomizing nozzle of the humidifier (9) is positioned in the cold storage cabin (2), and a plurality of universal wheels (12) are arranged at the lower end of the refrigerator body (1);

when moisture in the air of the refrigerator is higher, the moisture absorption block (22) absorbs the moisture in the air, the moisture absorption block (22) is weighted after absorbing the moisture, the moisture absorption block (22) is heavier than the balancing weight (26), the lever (20) drives the second power-on block (27) to turn clockwise, the second power-on block (27) is communicated with the third power-on block (29) to enable the circuit of the exhaust fan (17) and the motor to be communicated, the motor operates to drive the sliding plate (23) to move upwards, the fourth air hole (233) communicated with the second air cabin (164) is staggered with the third air hole (25), and the wet air in the cold storage cabin (2) does not directly enter the second air cabin (164), the second ventilation hole (231) communicated with the first air cabin (162) is communicated with the third ventilation hole (25), the wet air in the cold storage cabin (2) enters the first air cabin (162), the wet air in the first air cabin (162) is conveyed into the second air cabin (164) through the exhaust fan (17), the wet air in the first air cabin (162) is dried after being subjected to water absorption treatment of the water absorption particles (163), the dried air is blown to the moisture absorption block (22) through the exhaust fan (17), the air in the second air cabin (164) is discharged to the outside through the one-way valve (1101), the moisture absorption block (22) is dried, after the moisture absorption block (22) is dried, the lever (20) is turned anticlockwise, the circuit of the exhaust fan (17) and the motor is disconnected, the motor is powered off, the gear (241) is in a free state, the sliding plate (23) slides downwards under the action of gravity to restore to the original position, so that the wet air in the cold storage cabin (2) does not enter the first air cabin (162), the wet air in the cold storage cabin (2) enters the second air cabin (164), and the moisture absorption work of the moisture absorption block (22) is carried out again, so that the next dehumidification treatment is facilitated;

when the air humidity of the refrigerator is lower, moisture absorbed by the moisture absorption block (22) is less, the moisture absorption block (22) is lighter than the balancing weight (26), the anticlockwise turning angle of the lever (20) is large, the second electrifying block (27) is connected with the fourth electrifying block (30), the humidifier (9) is connected with the fourth electrifying block (30) to humidify the cold storage cabin (2), the humid air in the cold storage cabin (2) enters the second air cabin (164) until the moisture absorption block (22) absorbs moisture and turns clockwise, the second electrifying block (27) is disconnected with the fourth electrifying block (30), and the humidifier (9) stops humidifying operation, so that the inside of the refrigerator can keep good refrigerating effect.

2. An ice protection automatic humidity control ice bin according to claim 1, wherein: the spring (403) is located between the limiting end of the spring block (4) and the side wall of the first sliding groove (101), a power line (15) is connected to the miniature camera (3), the power-on end of the power line (15) is separated by the first sliding groove (101), and the insulating block (401) and the first power-on block (402) are in sliding connection with the power-on end of the power line (15).